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29 Jun 2023

Scientists Designed 10.83%-Efficient Solar Cell Based on New Unleaded Perovskite Material

29 Jun 2023  by pv-magazine   
A research group in India has simulated a solar cell based on a lead-free perovskite material known KSnI3 and has found the device may achieve remarkable efficiency and stability. The cell was tested with different types of electron transport layers and hole transports layers.

Schematich of the solar cell

Image: Pandit Deendayal Energy University

Scientists at the Pandit Deendayal Energy University in India have designed a solar cell using KSnI3 as an absorber material.

KSnI3 is a perovskite material that doesn't contain lead and has already been used in solar cell applications by previous research. “This is not the first attempt at building cells based on KSnI3,” the research's corresponding author, Grishma Pindolia, told pv magazine. “Two more papers have been published in 2023 itself, which show the potential of KSnI3 as an absorber material in solar cells.”

The group used an organic electron transport layer (ETL) with optimized defect concentration and improved interface and doping density for the solar cell, claiming the use of this ETL is less expensive than that of inorganic ETLs based on materials such as titanium oxide (TiO2) . “The inorganic charge transport layers (ETLs) require complex deposition techniques, which are not very cost friendly and the reported efficiencies of perovskite solar cells with organic ETLs are higher than those with inorganic CTLs,” it explained.

The scientists used a numerical module and the SCAPS-1D solar cell capacitance software, which is a simulation tool for thin-film solar cells that was developed by the University of Ghent in Belgium, to simulate a solar cell utilizing ETLs based on either phenyl-C61-butyric acid methyl ester (PCBM) or buckminsterfullerene (C60). They also tested organic HTLs relying on spiro-OMeTAD, poly-triarylamine (PTAA), polymer Regioregular poly(3-hexylthiophene) (P3HT), PEDOT: PSS, and D-PBTTT-14.

“We optimized the defect concentration of the layers and the interfaces, doping density and thickness of the layers, and the shunt and series resistance of the device,” the scientists said, noting that they also used a gold (Au) metal contact and a fluorine-doped tin oxide (FTO) substrate for the solar cell. “The optimized thickness of PTAA, KSnI3, and C60 was 30nm, 980nm, and 10nm respectively.”

Through their simulation, the academics found the device may achieve a power conversion efficiency of 10.83% and a fill factor of 80.8%. It may also achieve an open-circuit voltage of 0.76788 V and a short-circuit current of 17.44879 mA/cm2.

The device is presented in the paper “Effect of organic charge transport layers on unleaded KSnI3 based perovskite solar cell,” published in Results in Optics. “The present work may be helpful in designing lead-free, non-toxic tin-based perovskite solar cells in the future,” the research team concluded.

 

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